基于磁共振成像的患者特异性人类颈动脉粥样硬化血管材料特性在患者、血管位置及长期随访中的变化
MRI-based patient-specific human carotid atherosclerotic vessel material property variations in patients, vessel location and long-term follow up.
作者信息
Wang Qingyu, Canton Gador, Guo Jian, Guo Xiaoya, Hatsukami Thomas S, Billiar Kristen L, Yuan Chun, Wu Zheyang, Tang Dalin
机构信息
School of Biological Science and Medical Engineering, Southeast University, Nanjing, China.
Department of Mechanical Engineering, University of Washington, Seattle, WA, United States of America.
出版信息
PLoS One. 2017 Jul 17;12(7):e0180829. doi: 10.1371/journal.pone.0180829. eCollection 2017.
BACKGROUND
Image-based computational models are widely used to determine atherosclerotic plaque stress/strain conditions and investigate their association with plaque progression and rupture. However, patient-specific vessel material properties are in general lacking in those models, limiting the accuracy of their stress/strain measurements. A noninvasive approach of combining in vivo 3D multi-contrast and Cine magnetic resonance imaging (MRI) and computational modeling was introduced to quantify patient-specific carotid plaque material properties for potential plaque model improvements. Vessel material property variation in patients, along vessel segment, and between baseline and follow up were investigated.
METHODS
In vivo 3D multi-contrast and Cine MRI carotid plaque data were acquired from 8 patients with follow-up (18 months) with written informed consent obtained. 3D thin-layer models and an established iterative procedure were used to determine parameter values of the Mooney-Rivlin models for the 81slices from 16 plaque samples. Effective Young's Modulus (YM) values were calculated for comparison and analysis.
RESULTS
Average Effective Young's Modulus (YM) and circumferential shrinkage rate (C-Shrink) value of the 81 slices was 411kPa and 5.62%, respectively. Slice YM value varied from 70 kPa (softest) to 1284 kPa (stiffest), a 1734% difference. Average slice YM values by vessel varied from 109 kPa (softest) to 922 kPa (stiffest), a 746% difference. Location-wise, the maximum slice YM variation rate within a vessel was 311% (149 kPa vs. 613 kPa). The average slice YM variation rate for the 16 vessels was 134%. The average variation of YM values for all patients from baseline to follow up was 61.0%. The range of the variation of YM values was [-28.4%, 215%]. For plaque progression study, YM at follow-up showed negative correlation with plaque progression measured by wall thickness increase (WTI) (r = -0.7764, p = 0.0235). Wall thickness at baseline correlated with WTI negatively, with r = -0.5253 (p = 0.1813). Plaque burden at baseline correlated with YM change between baseline and follow-up, with r = 0.5939 (p = 0.1205).
CONCLUSION
In vivo carotid vessel material properties have large variations from patient to patient, along the diseased segment within a patient, and with time. The use of patient-specific, location specific and time-specific material properties in plaque models could potentially improve the accuracy of model stress/strain calculations.
背景
基于图像的计算模型被广泛用于确定动脉粥样硬化斑块的应力/应变情况,并研究它们与斑块进展和破裂的关联。然而,这些模型通常缺乏患者特异性的血管材料属性,限制了其应力/应变测量的准确性。引入了一种将体内三维多对比和电影磁共振成像(MRI)与计算建模相结合的非侵入性方法,以量化患者特异性的颈动脉斑块材料属性,从而有可能改进斑块模型。研究了患者之间、沿血管段以及基线与随访之间的血管材料属性变化。
方法
在获得书面知情同意后,从8名有随访(18个月)的患者中获取体内三维多对比和电影MRI颈动脉斑块数据。使用三维薄层模型和既定的迭代程序来确定16个斑块样本的81个切片的穆尼 - 里夫林模型的参数值。计算有效杨氏模量(YM)值以进行比较和分析。
结果
81个切片的平均有效杨氏模量(YM)和周向收缩率(C - Shrink)值分别为411kPa和5.62%。切片YM值从70kPa(最软)到1284kPa(最硬)不等,相差1734%。不同血管的平均切片YM值从109kPa(最软)到922kPa(最硬)不等,相差746%。按位置来看,血管内切片YM的最大变化率为311%(149kPa对613kPa)。16条血管的平均切片YM变化率为134%。所有患者从基线到随访的YM值平均变化为61.0%。YM值的变化范围为[-28.4%,215%]。对于斑块进展研究,随访时的YM与通过壁厚度增加(WTI)测量的斑块进展呈负相关(r = -0.7764,p = 0.0235)。基线时的壁厚度与WTI呈负相关,r = -0.5253(p = 0.1813)。基线时的斑块负荷与基线和随访之间的YM变化相关,r = 0.5939(p = 0.1205)。
结论
体内颈动脉血管材料属性在患者之间、患者体内患病段以及随时间存在很大差异。在斑块模型中使用患者特异性、位置特异性和时间特异性的材料属性可能会提高模型应力/应变计算的准确性。
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